Lenke V型青少年特发性脊柱侧凸中首例冠状位反向椎体的生物力学特征:一项有限元分析研究
Biomechanical Characteristics of First Coronal Reverse Vertebrae in Lenke Type V Adolescent Idiopathic Scoliosis: A Study Using Finite Element Analysis.
作者信息
Shang Zhenguo, Hou Zhiyong, Chen Wei, Chang Hengrui, Xu Jiaxin, Zhang Di, Wang Hui
机构信息
Department of Spinal Surgery, Hebei Medical University Third Hospital, Shijiazhuang, Hebei, China.
Department of Orthopaedic Surgery, Hebei Medical University Third Hospital, Shijiazhuang, Hebei, China.
出版信息
Orthop Surg. 2025 Feb;17(2):563-574. doi: 10.1111/os.14294. Epub 2024 Dec 9.
OBJECTIVE
Whether first coronal reverse vertebrae (FCRV) can directly cause biomechanical changes in adjacent segments remains unclear. The objective of this study was to explore the biomechanical changes in adjacent discs of the FCRV to better understand the stress distribution of adolescent idiopathic scoliosis (AIS).
METHODS
According to the plain CT scan data of T8-T10 segment of an AIS patient, T9 was the FCRV, and a three-dimensional FE model was established accurately. The T8-T9 segment disc was defined as the adjacent upper disc (UD), axial section as half of the upper disc (HUD). Similarly, T9-T10 segment disc was the adjacent lower disc (LD), axial section as half of the lower disc (HLD). The biomechanical changes in adjacent discs of the FCRV under different loads were assessed.
RESULTS
The maximum Von-Mises stress values of the LD were greater under various loads than those of the HLD, UD, and HUD. The average stress on the LD was greater than that of the other discs under the left lateral bending (LLB) or right lateral bending (RLB) load. It was noted that the concave side of the LD was subjected to greater stress under the neutral standing or LLB load compared with convex side. Additionally, the concave side of the LD was subjected to greater stress under the LLB or RLB load compared with that of other discs. Interestingly, the same trends were observed for the convex side of the LD.
CONCLUSIONS
FCRV caused LD to take on greater stress magnitudes. The stress showed a trend of local concentration, which was in the concave side of the scoliosis. These findings could contribute to further treatment planning for the patient and aid physicians' management decision-making.
目的
首节冠状位反转椎体(FCRV)是否会直接导致相邻节段的生物力学改变尚不清楚。本研究的目的是探讨FCRV相邻椎间盘的生物力学变化,以更好地了解青少年特发性脊柱侧凸(AIS)的应力分布。
方法
根据一名AIS患者T8 - T10节段的平扫CT扫描数据,T9为FCRV,准确建立三维有限元模型。将T8 - T9节段椎间盘定义为相邻上椎间盘(UD),其轴向截面为上椎间盘的一半(HUD)。同样,T9 - T10节段椎间盘为相邻下椎间盘(LD),其轴向截面为下椎间盘的一半(HLD)。评估FCRV相邻椎间盘在不同载荷下的生物力学变化。
结果
在各种载荷下,LD的最大冯·米塞斯应力值均大于HLD、UD和HUD。在左侧弯(LLB)或右侧弯(RLB)载荷下,LD上的平均应力大于其他椎间盘。值得注意的是,在中立位站立或LLB载荷下,LD的凹侧比凸侧承受更大的应力。此外,与其他椎间盘相比,LD在LLB或RLB载荷下凹侧承受的应力更大。有趣的是,LD凸侧也观察到相同趋势。
结论
FCRV使LD承受更大的应力大小。应力呈现局部集中趋势,集中在脊柱侧凸的凹侧。这些发现有助于为患者制定进一步的治疗方案,并辅助医生进行管理决策。
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